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Biomimetic conducting polymer-based tissue scaffolds

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Biomimetic conducting polymer-based tissue scaffolds. / Hardy, John G.; Lee, Jae Y.; Schmidt, Christine E.
In: Current Opinion in Biotechnology, Vol. 24, No. 5, 10.2013, p. 847-854.

Research output: Contribution to Journal/MagazineLiterature reviewpeer-review

Harvard

Hardy, JG, Lee, JY & Schmidt, CE 2013, 'Biomimetic conducting polymer-based tissue scaffolds', Current Opinion in Biotechnology, vol. 24, no. 5, pp. 847-854. https://doi.org/10.1016/j.copbio.2013.03.011

APA

Hardy, J. G., Lee, J. Y., & Schmidt, C. E. (2013). Biomimetic conducting polymer-based tissue scaffolds. Current Opinion in Biotechnology, 24(5), 847-854. https://doi.org/10.1016/j.copbio.2013.03.011

Vancouver

Hardy JG, Lee JY, Schmidt CE. Biomimetic conducting polymer-based tissue scaffolds. Current Opinion in Biotechnology. 2013 Oct;24(5):847-854. doi: 10.1016/j.copbio.2013.03.011

Author

Hardy, John G. ; Lee, Jae Y. ; Schmidt, Christine E. / Biomimetic conducting polymer-based tissue scaffolds. In: Current Opinion in Biotechnology. 2013 ; Vol. 24, No. 5. pp. 847-854.

Bibtex

@article{c8bc9fb03aed41bf9a92170e7b983f37,
title = "Biomimetic conducting polymer-based tissue scaffolds",
abstract = "Conducting polymer-based materials are promising for application as tissue scaffolds for the replacement or restoration of damaged or malfunctioning tissues, because a variety of tissues respond to electrical stimulation. This review focuses on conducting polymer-based materials with biomimetic chemical, mechanical and topological properties, and recent progress toward the fabrication of clinically relevant tissue scaffolds is highlighted.",
keywords = "ENGINEERING APPLICATIONS, BIOMEDICAL APPLICATIONS, ELECTRICAL-STIMULATION, IN-VITRO, MYOBLAST DIFFERENTIATION, NEURAL INTERFACES, CELL-ADHESION, POLYPYRROLE, BIOCOMPATIBILITY, POLY(3,4-ETHYLENEDIOXYTHIOPHENE), Chemical Engineering (miscellaneous), Chemistry(all), Biomaterials, Electronic, Optical and Magnetic Materials",
author = "Hardy, {John G.} and Lee, {Jae Y.} and Schmidt, {Christine E.}",
year = "2013",
month = oct,
doi = "10.1016/j.copbio.2013.03.011",
language = "English",
volume = "24",
pages = "847--854",
journal = "Current Opinion in Biotechnology",
issn = "0958-1669",
publisher = "Elsevier Ltd",
number = "5",

}

RIS

TY - JOUR

T1 - Biomimetic conducting polymer-based tissue scaffolds

AU - Hardy, John G.

AU - Lee, Jae Y.

AU - Schmidt, Christine E.

PY - 2013/10

Y1 - 2013/10

N2 - Conducting polymer-based materials are promising for application as tissue scaffolds for the replacement or restoration of damaged or malfunctioning tissues, because a variety of tissues respond to electrical stimulation. This review focuses on conducting polymer-based materials with biomimetic chemical, mechanical and topological properties, and recent progress toward the fabrication of clinically relevant tissue scaffolds is highlighted.

AB - Conducting polymer-based materials are promising for application as tissue scaffolds for the replacement or restoration of damaged or malfunctioning tissues, because a variety of tissues respond to electrical stimulation. This review focuses on conducting polymer-based materials with biomimetic chemical, mechanical and topological properties, and recent progress toward the fabrication of clinically relevant tissue scaffolds is highlighted.

KW - ENGINEERING APPLICATIONS

KW - BIOMEDICAL APPLICATIONS

KW - ELECTRICAL-STIMULATION

KW - IN-VITRO

KW - MYOBLAST DIFFERENTIATION

KW - NEURAL INTERFACES

KW - CELL-ADHESION

KW - POLYPYRROLE

KW - BIOCOMPATIBILITY

KW - POLY(3,4-ETHYLENEDIOXYTHIOPHENE)

KW - Chemical Engineering (miscellaneous)

KW - Chemistry(all)

KW - Biomaterials

KW - Electronic, Optical and Magnetic Materials

U2 - 10.1016/j.copbio.2013.03.011

DO - 10.1016/j.copbio.2013.03.011

M3 - Literature review

VL - 24

SP - 847

EP - 854

JO - Current Opinion in Biotechnology

JF - Current Opinion in Biotechnology

SN - 0958-1669

IS - 5

ER -